Podocyte-specific Deletion of Integrin-linked Kinase Results in Severe Glomerular Basement Membrane Alterations and Progressive Glomerulosclerosis

Overview

Journal J Am Soc Nephrol

Specialty Nephrology

Date 2006 Apr 14

PMID 16611717

Citations 75

Authors

Chiraz El-Aouni

Nadja Herbach

Simone M Blattner

Anna Henger

Maria P Rastaldi

George Jarad

Jeffrey H Miner

Marcus J Moeller

Rene St-Arnaud

Shoukat Dedhar

Lawrence B Holzman

Ruediger Wanke

Matthias Kretzler

Affiliations

Soon will be listed here.

Abstract

Alterations in glomerular podocyte cell-cell and cell-matrix contacts are key events in progressive glomerular failure. Integrin-linked kinase (ILK) has been implicated in podocyte cell-matrix interaction and is induced in proteinuria. For evaluation of ILK function in vivo, mice with a Cre-mediated podocyte-specific ILK inactivation were generated. These mice seemed normal at birth but developed progressive focal segmental glomerulosclerosis and died in terminal renal failure. The first ultrastructural lesions that are seen at onset of albuminuria are glomerular basement membrane (GBM) alterations with a significant increase in true harmonic mean GBM thickness. Podocyte foot process effacement and loss of slit diaphragm followed with progression to unselective proteinuria. No significant reduction of slit membrane molecules (podocin and nephrin), key GBM components (fibronectin, laminins, and collagen IV isoforms), or podocyte integrins could be observed at onset of proteinuria. However, alpha3-integrins were relocalized into a granular pattern along the GBM, consistent with altered integrin-mediated matrix assembly in ILK-deficient podocytes. As the increased GBM thickness precedes structural podocyte lesions and key components of the GBM were expressed at comparable levels to controls, these data suggest an essential role of ILK for the close interconnection of GBM structure and podocyte function.

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